The regeneration and repair of cells that have been damaged in heart attacks could be possible in the future thanks to research at the University of Cincinnati.

When a person suffers a heart attack, also called a myocardial infarction, millions of heart muscle cells are starved of oxygen and die. Once the cells in the heart die, theres no natural system in the human body to replace them.

Yigang Wang, MD, director of the regenerative medicine division in UC's College of Medicine, is leading the development of a technique using something called a cell patch that could regenerate cells following a heart attack.

A cell patch is a lab-grown patch of muscle that would be affixed to the damaged area of the heart following a heart attack. The patch would replace the damaged cells and allow the heart to repair itself.

The problem with the current paradigm is that theres really not much that they can do except treat your symptoms, said Christian Paul, a research assistant in Wangs lab. Treating your symptoms isnt going to repair anything.

Within the heart are cells called cardiomyocytes, which are responsible for the beating and contraction of the heart. During a heart attack, those cells can be starved of oxygen and die.

When cardiomyocytes die, they lose their ability to contract and pump blood.

After a heart attack, those original cells are lost or become fibroblasts, Wang said. Then we could convert them to the original cells. That would be ideal to repair a myocardial infarction.

Wangs research is in the early stages, having done experiments in cell dishes and small animal models that have shown promise. In the future, breakthroughs that have been developed in the lab could help people avoid open heart surgery and receive better care.

If humans could regenerate the scarred area of the damaged heart into viable heart cells, less invasive procedures would be needed.

Our method, if in the future it could be used in the clinic, would be revolutionary, Wang said.

The cell patch, which Wang likened to a sandwich with multiple layers of cells, would include cardiomyocytes, fibroblasts, smooth cells and endothelial cells.

Fibroblasts are cells that contribute to the formation of connective tissue. They support the cells around them but cant pump blood.

Endothelial and smooth cells form new blood vessels, delivering nutrients to the damaged tissue, and remove waste. While the researchers at UC and worldwide have worked to develop cell patches, and been hopeful of their potential, there have been impediments to making cell patches a viable treatment.

Many cells, whether you inject them or put a cell patch on it, after a week, 98% of the cells die, Wang said.

To overcome these challenges, the UC researchers have developed new techniques and products.

To create new cardiomyocytes, the researchers use stem cells that are derived from skin or blood cells and reprogrammed into an embryonic-like state that allows the development of any type of human cell needed. The UC researchers have developed ways to make the cells mature quicker.

Wang and his team used CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) technology a genome editing system to alter genes.

By activating reprogramming genes in the body, their new approach turns heart scar tissue into cardiomyocytes. Also, by inhibiting a certain gene, these cells can continue to multiply, and the damaged cells can rejuvenate.

Additionally, they created a new hydrogel. The hydrogel, which Paul compared to a glue, attaches the cell patch to the heart.

The hydrogel developed at UC would introduce oxygen and growth factors, creating the best possible environment for cells to develop.

The UC team has patented its new products and techniques with the help of the staff at UCs Tech Transfer team at the 1819 Innovation Hub, which has given them more time to focus on their work.

Theyve been awesome, Paul said. Most of the paperwork and administrative aspects, theyve taken care of, and theyve asked us for the basic information and taken it from there.

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UC researchers developing method to repair hearts - EurekAlert